Explore Insights
New Insights
Help
Sign Up for a Free Account
Log In
Start Building Insights and Models
Motion
Models
These models and simulations have been tagged “Motion”.
Motion
Physics
Pendulum
Edythe
12
Spring
Hooke's Law
F = - K * X
Motion
Model for motion of simple spring: -k * x force determines acceleration accumulates as (flows to) velocity which accumulated (flows to) position.
spring_v01
Walter M. Stroup
6
Motion
Physics
Balloon Car
Sara Cahill
Physics
Motion
Based on equations of motion in
this paper
Clone from original
single pendulum
.
Double Pendulum
AJP
last month
Spring
Hooke's Law
F = - K * X
Motion
Model for motion of simple spring: -k * x force determines acceleration accumulates as (flows to) velocity which accumulated (flows to) position.
Clone of spring_v01
Amanda Couture
Physics
Motion
Clone of Pendulum
Batsukh
Motion
Physics
Clone of Pendulum
Hans Niedderer
Physics
Motion
Clone of Clone of Pendulum
Hans Niedderer
Motion
Physics
Clone of Pendulum
Bayarkhuu
Physics
Motion
Clone of Pendulum
Paul Ruston
Physics
Motion
Clone of Pendulum
Ismael Costa
Spring
Hooke's Law
F = - K * X
Motion
Model for motion of simple spring: -k * x force determines acceleration accumulates as (flows to) velocity which accumulated (flows to) position.
Clone of spring_v01
Sam Stroup
Physics
Motion
Clone of Pendulum
Steve Joe
Spring
Hooke's Law
F = - K * X
Motion
Model for motion of simple spring: -k * x force determines acceleration accumulates as (flows to) velocity which accumulated (flows to) position.
Clone of spring_v01
Walter M. Stroup
Motion
Physics
Clone of Pendulum
Nilo Guimaraes
Motion
Physics
Clone of Pendulum
Sebastian Zander
Motion
Physics
Simple Pendulum
Pau Fonseca
3 months ago
Spring
Hooke's Law
F = - K * X
Motion
Model for motion of simple spring: -k * x force determines acceleration accumulates as (flows to) velocity which accumulated (flows to) position.
Clone of spring_v01
Joal Paiva
4 weeks ago